Electrical & Electronics Engineering

About EEE

The Department of Electrical and Electronics Engineering was established in the year 2009. The B.Tech-EEE Program was duly approved by the AICTE and affiliated to Pondicherry University, Puducherry. The B.Tech (EEE) programme offers a unique mix of electrical, electronics and computer related courses enabling the students to take-up a professional career / higher studies in any of these areas. Broad range of topics coverage include Electrical Circuits, Electrical machines, control systems, Measurements & Instrumentation, Power generation and distribution, Analog & digital system design, power electronics, Microprocessors, Power systems, High voltage Engineering ,Renewable energy ,Data structures, digital signal processing, Communication systems, Power system economics , etc. The curriculum based on a credit scheme is updated periodically to reflect changes in the Electrical Engineering profession in consultation with experts from industries and renowned academic institutions.

Objectives:

Provide a programme, which develops core knowledge and understanding of engineering principles appropriate to the field of Electrical Engineering.& Develop lifelong learning skills.

Enable students to develop specialized knowledge and practical skills that would analyse, investigate and develop solutions to EEE problems

Some of the innovative practices included as part of the curriculum are practice School, mini projects associated with lab courses, continuous evaluation, relative grading etc.

Mrs.B.Pushpa M.Tech.

Asso. Professor & Head of the Department

Greetings..!!

It gives me immense pleasure to lead the Electrical and Electronics Engineering Department of this esteemed and prestigious institution. The department of Electrical and Electronics Engineering (EEE) is one of the major and principle departments of Sri Ganesh College of Engineering and technology since its inception in 2009.

Sitting squarely in an Engineering Faculty, The Department EEE is focused on devising innovative, accurate solutions to complex problems, whilst ensuring that the solutions execute optimally. The department has excellent infrastructure, extremely talented teaching faculty ensures quality education of the best kind. The Faculty members along with a Training and Placement Cell ensure a bright future to their students. Thus we are confident that our students will emerge as assets not only to institution and organisation they belong, but also to the country at large.

We at EEE department, continue to transform the way we live – from the latest gazettes through sophisticated scientific and industrial technologies. The EEE department endeavours in streamlining the career options and paves way for graduates to explore new career opportunities. The EEE graduates will have the opportunity to work in different private/Govt./ public sectors and industries. Further, our graduates have various options to choose their career growth viz. One can easily switch over to software field or can opt for design/fabrication of electronic hardware engineer or can also choose to become an entrepreneur.

Thanks to the efforts of our Management, Researchers, Teachers, alumni and students on roll for their continuous support. We continue to play a leading role in our discipline and are committed towards creating innovative and effective professionally vivacious graduate community.

Infrastructure

The infrastructure in the laboratory is as per norms. Students get wide exposure and practical hands on training in the sophisticated equipment’s during their lab sessions. The EEE department has the following laboratories to cover all the experiments.

Basic EEE Lab

The objective of this laboratory is to get an exposure on the basic electrical tools, applications and precautions: Different types of wiring used in domestic and industrial Applications. Attending faults in electrical lamp and ceiling fan, exposure on the measurements of voltage and phase using CRO, basic operation and applications of devices such as PN junction diode and transistor and knowledge on the functions and application of basic logic gates and flip flops

Electrical Machines AC Lab

The objective of this laboratory is to enable the students to realize the performance of AC generators under no load and load conditions. The students get acquainted with the load performance of different types of induction motors and synchronous motors. The course enables the students to understand the predetermination methods for finding the losses and efficiencies of AC motors and generators.

Electrical Machines DC Lab

The objective of this laboratory is to enable the students to realise the performance of single phase and three phase transformers under no load and load conditions. It enables the students to understand the intricacies in connecting the circuit and conducting the experiments. The students get familiarise with the load performance of different types of DC motors and generators and understand the predetermination methods for finding the losses and efficiencies of transformers and DC motors.

Electronics Lab

The major feature of this laboratory is to enable the students to understand the volt-ampere characteristics of basic electron devices such as PN junction diode, zener diode, bipolar junction transistor, field effect transistor, and silicon controlled rectifier. The students acquire knowledge about the design of biasing circuits of BJT and FET in order to apply them for realising any electronic circuits. In addition,the students are introduced to some applications of these electron devices.Design and analyse the operation of some of the basic analog electronic circuits such as amplifiers, oscillators and multi-vibrators. The course introduces the basic logic gates and flip-flops which help them to build any digital Electronic circuits

Measurement and Control Lab

The Measurement & Control laboratory enables the students to understand the basics of calibration and extension of range of different meters. Students acquire knowledge about the various circuit theorems using PSPICE simulation and control system oriented MATLAB experiments. The course enables the students in knowing the working principles of various bridges, magnetic and frequency measurements, analysing the concepts of signal converters, instrumentation amplifier and transducers.

Microprocessor lab

Here the students acquire a good knowledge on Microprocessor and micro controller programming and their applications. Besides, the course introduces the concept of interfacing,auxiliary units to the microprocessor and micro controller. By the end of the course, the students will be able to write the assembly language programs in 8085 microprocessor and 8051 micro controller and execute them.The course enables the students to incorporate these concepts into their electronic designs, where control can be achieved via a microprocessor or micro controller implementation.

Power Electronics Lab

This course is intended to enable the students to understand the basics of trigger circuits required for various power converters. Students acquire knowledge about the operation of various power converter circuits namely controlled rectifiers, choppers, AC voltage regulators and inverters. The course enables the students to do simulation of these circuits using MATLAB/Simulink and experimentally verify the simulation results in the hardware lab. Besides, the students are introduced to some of the application of these power converters.

Power System Simulation lab

This course is intended to enable the students to acquire knowledge on the programming and simulation of power systems using computer package MATLAB. It introduces Mfile programming in MATLAB for array, matrix operations and plotting of Graphs. By the end of the course, students will be able to develop MATLAB programs for computation of power system components in per-units,formulation of the bus admittance and impedance matrices, load dispatch, load flow, short circuit and transient stability studies.

Project Lab

EEE projects include both core electrical projects as well as electronic projects. We at Ingens offer a hundreds of projects for EEE that are IEEE projects as well as projects based on real time requirements. BE EEE Projects are particularly interesting and challenging at the same time because of the high power involved in the electrical projects.

B.E EEE Projects can be in many diverse domains and technologies. A B.E EEE project can be in a power electronics project, or a power systems project or a project based on electrical machines and drives etc. In addition to all these EEE projects can electronic projects, where they can be embedded system projects, VLSI projects etc.

One of the very popular areas for EEE projects of late is the unconventional and renewable power sector, where lot of solar power based project or wind power projects are also possible. Since these are areas that are gaining popularity many IEEE projects are possible in these technologies along with many other technologies.

Syllabus

The Department of Electrical and Electronics Engineering has Students Association named ESSA. This association is formed basically to bring out the hidden talents of the students. This Association releases newsletters, and magazines periodically, the members can come out with their innovative ideas, share informative articles and thereby they can share more knowledge about this cyber world.